Dynamic facilitation of communications services

ABSTRACT

Systems and methods for facilitating communicative connection for a user device are disclosed. Based on a request for communicative connection, a communication facilitator identifies a set of candidate communications service providers (CSPs) to match the request, provides information regarding the set of candidate CSPs to the user device, receives an indication of selection, and causes establishment of communicative connection for the user device via a communications service provided by the selected CSP.

BACKGROUND Technical Field

The present disclosure relates generally to facilitating communicationsservices, and more specifically to facilitating user devices'communicative connections via services provided by communicationsservice providers.

Description of the Related Art

A communications service provider (CSP) generally provides services totransport information electronically. It can involve thetelecommunications (e.g., landline and wireless), Internet, cable,satellite, and managed services businesses. A CSP can offertelecommunications, media, entertainment, applications, and otherinformation-related services, e.g., over a physical network. Examples ofCSP can include Internet service providers (ISPs), cable companies,mobile carriers, television broadcasting operators, and others. Userdevices (e.g., a smart phone) typically access network utilities (e.g.,by connecting to Internet content providers) via a pre-configuredservice provided by a particular CSP.

BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWINGS

The present disclosure will be more fully understood by reference to thefollowing figures, which are for illustrative purposes only. The figuresare not necessarily drawn to scale, and elements of similar structuresor functions are generally represented by like reference numerals forillustrative purposes throughout the figures. The figures do notdescribe every aspect of the teachings disclosed herein, and do notlimit the scope of the claims.

FIG. 1 is a block diagram illustrating an example networked environmentfor facilitating communications services in accordance with someembodiments of the techniques described herein.

FIG. 2 is a flow diagram depicting an example process for facilitatingcommunications services in accordance with some embodiments of thetechniques described herein.

FIG. 3 is a flow diagram depicting an example process for requesting andestablishing communicative connection(s) in accordance with someembodiments of the techniques described herein.

FIG. 4 is a block diagram illustrating elements of an example computingdevice utilized in accordance with some embodiments of the techniquesdescribed herein.

DETAILED DESCRIPTION

The following description, along with the accompanying drawings, setsforth certain specific details in order to provide a thoroughunderstanding of various disclosed embodiments. However, one skilled inthe relevant art will recognize that the disclosed embodiments may bepracticed in various combinations, without one or more of these specificdetails, or with other methods, components, devices, materials, etc. Inother instances, well-known structures or components that are associatedwith the environment of the present disclosure, including but notlimited to the communication systems and networks and the environment,have not been shown or described in order to avoid unnecessarilyobscuring descriptions of the embodiments. Additionally, the variousembodiments may be methods, systems, media, or devices. Accordingly, thevarious embodiments may combine software and hardware aspects.

Throughout the specification, claims, and drawings, the following termstake the meaning explicitly associated herein, unless the contextclearly dictates otherwise. The term “herein” refers to thespecification, claims, and drawings associated with the currentapplication. The phrases “in one embodiment,” “in another embodiment,”“in various embodiments,” “in some embodiments,” “in other embodiments,”and other variations thereof refer to one or more features, structures,functions, limitations, or characteristics of the present disclosure,and are not limited to the same or different embodiments unless thecontext clearly dictates otherwise. As used herein, the term “or” is aninclusive “or” operator, and is equivalent to the phrases “A or B, orboth” or “A or B or C, or any combination thereof,” and lists withadditional elements are similarly treated. The term “based on” is notexclusive and allows for being based on additional features, functions,aspects, or limitations not described, unless the context clearlydictates otherwise. In addition, throughout the specification, themeaning of “a,” “an,” and “the” include singular and plural references.

References to the term “set” (e.g., “a set of items”), as used herein,unless otherwise noted or contradicted by context, is to be construed asa nonempty collection comprising one or more members or instances.

References to the term “subset” (e.g., “a subset of the set of items”),as used herein, unless otherwise noted or contradicted by context, is tobe construed as a nonempty collection comprising one or more members orinstances of a set or plurality of members or instances.

Moreover, the term “subset,” as used herein, refers to a proper subset,which is a collection of one or more members or instances that arecollectively smaller in number than the set or plurality of which thesubset is drawn. For instance, a subset of a set of ten items will haveless than ten items and at least one item.

Each of the features and teachings disclosed herein may be utilizedseparately or in conjunction with other features and disclosure toprovide a system and method for dynamically facilitating communicativeconnections for user devices via services provided by multiple CSPs.Representative examples utilizing many of these additional features andteachings, both separately and in combination, are described in furtherdetail with reference to the attached FIGS. 1-4. This detaileddescription is intended to teach a person of skill in the art furtherdetails for practicing aspects of the present disclosure, and is notintended to limit the scope of the claims. Therefore, combinations offeatures disclosed above in the detailed description may not benecessary to practice the teachings in the broadest sense, and areinstead disclosed merely to describe particularly representativeexamples of the present disclosure.

In the description below, for purposes of explanation only, specificnomenclature is set forth to provide a thorough understanding of thesystem and method for achieving an intermediary for facilitating andmanaging communicative connections for a user device. However, it willbe apparent to one skilled in the art that these specific details arenot required to practice the teachings of the current disclosure. Also,other methods and systems may also be used.

Communications service providers (CSPs) typically strive to meet thedemands and concerns of its customers, but this is becoming moredifficult to do as new technologies, new content, and other networkutilities continue to expand. For example, with the explosive growth incloud-application usage, mobile devices, and extending connectivity andcomputing to the edge with 5G, pre-configured communication service foruser devices via a particular CSP can be too rigid and inflexible, whichmay not keep up with the dynamic nature of user devices' demand forcapacity and throughput. Accordingly, there is a need for improvement inthe facilitation and management of services provided by CSPs.

The present disclosure relates generally to facilitating communicationsservices, and more specifically to facilitating a user device'scommunicative connection via selective management of services providedby multiple CSPs. In some embodiments, a communication facilitatorfacilitates communicative connection(s) for a user device. In someembodiments, the communication facilitator can communicate with the userdevice independent of the CSPs under management (e.g., via a dedicatedcommunication channel). The user device can determine a need forcommunicative connection based, e.g., on invocation of an applicationwhich requires or has a preference for certain type of communicativeconnection.

After receiving a request for the communicative connection from the userdevice, the communication facilitator identifies a set of candidate CSPsto match the request. In some embodiments, the request for communicativeconnection can indicate a communication purpose (e.g., gaming, audio orvideo streaming, web browsing, texting, audio or video chatting, oraudio or video conferencing) and/or a destination utility serviceprovider (e.g., an Internet content provider) that the user deviceintends to connect with. In some embodiments, the user device convertsthe need for communication connection into a set of communicationcriteria (e.g., latency requirement, bandwidth requirement, consistencyrequirement, duration requirement, channel requirement, interferencerequirement, and/or privacy requirement) prior to sending the requestand includes at least some of the criteria in the request.

In some embodiments, the communication facilitator (e.g., instead of theuser device) converts the request into a set of communication criteriain order to identify the set of candidate CSPs. The communicationfacilitator can obtain communication performance data from the CSPsunder management as a basis for identifying the set of candidate CSPs.This can be performed periodically or as triggered by data updatingevents. Given the communication performance data, the communicationfacilitator can identify CSPs that satisfy applicable communicationcriteria.

In some embodiments, the communication facilitator provides informationregarding the set of candidate CSPs to the user device and receivesindication of a selected or approved CSP. In some embodiments, thecommunication facilitator makes the selection or approval itself. Theselection and/or approval can be based on one or more selection criteriaincluding monetary cost requirement, communication performancerequirement, and/or user preference. As part of the basis for selection,the communication facilitator obtains pricing data from the CSPs fordifferent communications services provided by them. The communicationfacilitator then communicates with the user device to establish thecommunicative connection via a communications service provided by theselected CSP, e.g., to access service(s) provided by a destinationutility service provider.

FIG. 1 is a block diagram illustrating an example networked environment100 for facilitating communications services in accordance with someembodiments of the techniques described herein. The networkedenvironment 100 includes a communication facilitator 118, one or moreCSPs 128, a user device 138, and one or more network utility serviceproviders 148. The user device 138 can be connected to utility serviceprovider(s) 148 via at least some part of communication connections 108,which are at least partially subject to control by CSP(s) 128.Additionally, the communication facilitator 118 is communicativelyconnected to the user device 138 and the CSP(s) 128 via connections 110and 120 (e.g., dedicated communication channels). In some embodiments,the connections 110 and/or 120 are part of the communication connections108.

In the depicted networked environment 100, the communication connections108 may comprise one or more computer networks, one or more wired orwireless networks, satellite transmission media, one or more cellularnetworks, or some combination thereof. The communication connections 108may include a publicly accessible network of linked networks, possiblyoperated by various distinct parties, such as the Internet. Thecommunication connections 108 may include other network types, such asone or more private networks (e.g., corporate or university networksthat are wholly or partially inaccessible to non-privileged users), andmay include combinations thereof, such that (for example) one or more ofthe private networks have access to and/or from one or more of thepublic networks. Furthermore, the communication connections 108 mayinclude various types of wired and/or wireless networks in varioussituations, including satellite transmission. In addition, thecommunication connections 108 may include one or more communicationinterfaces to individual entities in the networked environment 100,various other mobile devices, computing devices and media devices,including but not limited to, radio frequency (RF) transceivers,cellular communication interfaces and antennas, USB interfaces, portsand connections (e.g., USB Type-A, USB Type-B, USB Type-C (or USB-C),USB mini A, USB mini B, USB micro A, USB micro C), other RF transceivers(e.g., infrared transceivers, Zigbee® network connection interfacesbased on the IEEE 802.15.4 specification, Z-Wave® connection interfaces,wireless Ethernet (“Wi-Fi”) interfaces, short range wireless (e.g.,Bluetooth®) interfaces and the like. The battery charging connection 110may include wired and/or wireless charging interfaces, for example,based on Programmable Power Supply, USB, and/or Qi technologies. In someembodiments, the battery charging connection 110 is part of thecommunication connections 108.

In various embodiments, examples of a user device 138 include, but arenot limited to, one or a combination of the following: a “computer,”“mobile device,” “gaming console,” “tablet computer,” “smart phone,”“handheld computer,” and/or “workstation,” etc. The user device(s) 138may be any suitable computing device or electronic equipment that, e.g.,is able to communicate with the communication facilitator 118 and theutility service provider(s) 148.

In various embodiments, the communication facilitator 118 can includeone or more computing devices for performing the communicationfacilitating functions described herein. The communication facilitator118 can include functional units for processing requests from userdevices, obtaining performance and pricing data from CSPs, matching andselecting CSPs and associated communications services, as well asfacilitating establishment of communicative connections between userdevices and utility service providers based thereon. In variousembodiments, individual CSPs 128 and utility service providers 148 canbe implemented in software and/or hardware form on one or more computingdevices including a “computer,” “mobile device,” “tablet computer,”“smart phone,” “handheld computer,” “server,” and/or “workstation,” etc.The utility service provider(s) 148 can provide content, service, forum,and/or other network utilities.

Data communications among entities of the networked environment 100 canbe encrypted. Related encryption and decryption may be performed asapplicable according to one or more of any number of currently availableor subsequently developed encryption methods, processes, standards,protocols, and/or algorithms, including but not limited to: encryptionprocesses utilizing a public-key infrastructure (PKI), encryptionprocesses utilizing digital certificates, the Data Encryption Standard(DES), the Advanced Encryption Standard (AES 128, AES 192, AES 256,etc.), the Common Scrambling Algorithm (CSA), encryption algorithmssupporting Transport Layer Security 1.0, 1.1, and/or 1.2, encryptionalgorithms supporting the Extended Validation (EV) Certificate, etc.

The above description of the exemplary networked environment 100 and thevarious service providers, systems, networks, and devices therein isintended as a broad, non-limiting overview of an exemplary environmentin which various embodiments of the facility may be implemented. FIG. 1illustrates just one example of an operating environment, and thevarious embodiments discussed herein are not limited to suchenvironments. In particular, the networked environment 100 may containother devices, systems and/or media not specifically described herein.

FIG. 2 is a flow diagram depicting an example process 200 forfacilitating communications services in accordance with some embodimentsof the techniques described herein. In various embodiments, the process200 is performed in real time, and at least some part of the process 200is performed in a transparent manner to a user of the user device.Illustratively, at least some part of the process 200 can be implementedby the communication facilitator 118 of FIG. 1.

The process 200 starts at block 202, which includes receiving a requestfrom a user device 138 for communicative connection(s). The request caninclude a communication purpose, a utility service provider that theuser device is about to access, one or more communication criteria forthe communicative connection(s), one or more selection criteria forselecting CSP(s) and associated communication service(s), combinationsof the same or the like. In some embodiments, the request includessystem information and/or status of the user device (e.g., its model,configuration, computing power, storage capacity, communicationcapability, and/or active applications). In some embodiments, therequest includes an obfuscated identifier of the user device. In someembodiments, the communication facilitator 118 validates the identity ofthe user device and/or its user in association with the request (e.g.,the request is signed with an identify verifier of the user deviceand/or its user), so that the request can be processed and desiredconnectivity established for the right party.

In various embodiments, the communication facilitator 118 can receivesuch requests from multiple user devices concurrently or in a short timewindow (e.g., 1 second). The requests can be grouped based on variousfactors (e.g., geographic distance, network distance, communicationpurpose, destination utility service provider, and/or communicationcriteria). The grouped requests or individual request can be processedin real time.

At block 204, the process 200 includes identifying candidate CSP(s) tomatch the request. The communication facilitator 118 communicates withmultiple CSPs to obtain performance, status, prediction, pricing, and/orservice guarantee information associated with communications servicesprovided by each CSP. This can be done periodically (e.g., every 5minutes) or as triggered by new or updated information provided byindividual CSPs. The communication facilitator 118 can establish andupdate a database with this information. In some embodiments, thecommunication facilitator 118 also determines or obtains informationregarding establishment of communicative connections via differentcommunications services provided by the CSPs (e.g., handover proceduresassociated with different services provided by individual CSPs) andinclude them in the database.

In some embodiments, the communication facilitator 118 converts therequest into criteria and/or metrics that can be compared with theinformation regarding the communications services provided by differentCSPs, and identifies a set of candidate CSPs providing service(s) thatsatisfy the criteria and/or metrics. In some embodiments, thecommunication facilitator 118 can further query CSP(s) forcommunications service related information for the comparison,confirmation, and/or data refreshments.

At block 206, the process 200 includes providing information regardingthe set of candidate CSPs to the user device 138. In some embodiments,the communication facilitator 118 sends an indication of the set ofcandidate CSPs and associated communications services to the userdevice. In some embodiments, the communication facilitator 118 alsosends pricing, performance, prediction, and/or service guaranteeinformation about the different CSPs and associated communicationsservices. In response, the communication facilitator 118 receives fromthe user device an indication of selected or approved CSP and associatedservice. In some embodiments, the block 206 is not performed and thecommunication facilitator 118 performs the selection/approval based onpredetermined settings (e.g., selecting the cheapest communicationsservice provided by a CSP in the set of candidates), the selectioncriteria included in the request, user or administrator preferences,combination of the same or the like.

At block 208, the process 200 includes causing establishment ofcommunicative connection(s) using the selected or approved CSP service.Illustratively, the communication facilitator 118 communicates timingand procedures (e.g., for performing handover or adding a newcommunication channel) with the user device 138 and/or the selected orapproved CSP to initiate the establishment process. In some embodiments,the communication facilitator 118 also communicates a time duration forthe communicative connection and the procedures for the user device torevert back to current communicative connection(s).

FIG. 3 is a flow diagram depicting an example process 300 for requestingand establishing communicative connection(s) in accordance with someembodiments of the techniques described herein. In various embodiments,the process 300 is performed in real time, and at least some part of theprocess 300 is performed in a transparent manner to a user of the userdevice. Illustratively, at least some part of the process 300 can beimplemented by the user device 138 of FIG. 1.

The process 300 starts at block 302, which includes determining a needfor communicative connection(s). Illustratively, the need forcommunicative connection(s) is based on invocation of an application onthe user device 138. The invocation can trigger the user device 138 toanalyze the capability and performance of the user device's currentcommunicative connection(s), and determine whether the application canbe adequately served or supported. In some embodiments, the user device138 can convert the need for communicative connection into a set ofcommunication criteria including latency requirement, bandwidthrequirement, consistency requirement, duration requirement, channelrequirement, interference requirement, privacy requirement, combinationsof the same or the like.

At block 304, the process 300 includes sending a request forcommunicative connection(s) to the communication facilitator 118. Aspreviously stated, the request can include a communication purpose, autility service provider that the user device intends to access, one ormore communication criteria for the communicative connection(s), one ormore selection criteria for selecting CSP(s) and associatedcommunication service(s), combinations of the same or the like. In someembodiments, the request includes system information and/or status ofthe user device (e.g., its model, configuration, computing power,storage capacity, communication capability, and/or active applications).In some embodiments, the request includes an obfuscated identifier ofthe user device. In some embodiments, information for validating theidentity of the user device and/or its user is associated with therequest (e.g., the request is signed with an identify verifier of theuser device and/or its user), so that the request can be processed anddesired connectivity established for the right party.

At block 306, the process 300 includes receiving information regarding aset of candidate CSPs as a response to the request. In some embodiments,the user device 138 receives an indication of the set of candidate CSPsand associated communications services. In some embodiments, the userdevice also receives pricing, performance, prediction, and/or serviceguarantee information about the different CSPs and associatedcommunications services. The user device can present the CSP and servicerelated information to a user.

At block 308, the process 300 includes obtaining a selection or approvalof CSP and associated service, and sending confirmation of same to thecommunication facilitator 118. Illustratively, the selection or approvalcan be made by the user of the user device, or by the user device (e.g.,based on predetermined or dynamically-generated rules) without userinteractions. In some embodiments, blocks 306 and 308 are not performedas the communication facilitator selects or approves an appropriate CSPand associated communication service for the user device.

At block 310, the process 300 includes establishing communicativeconnection(s) using the selected or approved CSP service.Illustratively, the user device 138 receives timing and procedures(e.g., for performing handover or adding a new communication channel)from the communication facilitator 118 and/or the CSP to initiate theestablishment process. In some embodiments, the user device 138 alsoreceives indication of a time duration for the communicative connectionand the procedures for the user device to revert back to currentcommunicative connection(s), which the user device can performaccordingly.

At block 312, the process 300 includes determining whether to continuethe process. If so, the process proceeds to block 302; otherwise, theprocess ends.

Those skilled in the art will appreciate that the various operationsdepicted via FIGS. 2 and 3, as well as those described elsewhere herein,may be altered in a variety of ways. For example, the particular orderof the operations may be rearranged; some operations may be performed inparallel; shown operations may be omitted, or other operations may beincluded; a shown operation may be divided into one or more componentoperations, or multiple shown operations may be combined into a singleoperation, etc.

FIG. 4 is a block diagram illustrating elements of an example computingdevice 400 utilized in accordance with some embodiments of thetechniques described herein. Illustratively, the computing device 400corresponds to a communication facilitator 118, user device 138, CSP128, or at least a part thereof.

In some embodiments, one or more general purpose or special purposecomputing systems or devices may be used to implement the computingdevice 400. In addition, in some embodiments, the computing device 400may comprise one or more distinct computing systems or devices, and mayspan distributed locations. Furthermore, each block shown in FIG. 4 mayrepresent one or more such blocks as appropriate to a specificembodiment or may be combined with other blocks. Also, the communicationfacilitation manager 422 may be implemented in software, hardware,firmware, or in some combination to achieve the capabilities describedherein.

As shown, the computing device 400 comprises a computer memory(“memory”) 401, a display 402 (including, but not limited to a lightemitting diode (LED) panel, cathode ray tube (CRT) display, liquidcrystal display (LCD), touch screen display, projector, etc.), one ormore Central Processing Units (“CPU”) 403, Input/Output (“I/O”) devices404 (e.g., keyboard, mouse, RF or infrared receiver, universal serialbus (USB) ports, High-Definition Multimedia Interface (HDMI) ports,other communication ports, and the like), other computer-readable media405, network connections 406, a power source (or interface to a powersource) 407. The communication facilitation manager 422 is shownresiding in memory 401. In other embodiments, some portion of thecontents and some, or all, of the components of the communicationfacilitation manager 422 may be stored on and/or transmitted over theother computer-readable media 405. The components of the computingdevice 400 and communication facilitation manager 422 can execute on oneor more CPUs 403 and implement applicable functions described herein. Insome embodiments, the communication facilitation manager 422 may operateas, be part of, or work in conjunction and/or cooperation with othersoftware applications stored in memory 401 or on various other computingdevices. In some embodiments, the communication facilitation manager 422also facilitates communication with peripheral devices via the I/Odevices 404, or with another device or system via the networkconnections 406.

The one or more communication facilitation modules 424 is configured toperform actions related, directly or indirectly, to facilitating andmanaging communicative connections for user device(s) as describedherein. In some embodiments, the communication facilitation module(s)424 stores, retrieves, or otherwise accesses at least some communicationfacilitation-related data on some portion of the communicationfacilitation data storage 416 or other data storage internal or externalto the computing device 400. In various embodiments, at least some ofthe communication facilitation modules 424 may be implemented insoftware or hardware.

Other code or programs 430 (e.g., further data processing modules, aprogram guide manager module, a Web server, and the like), andpotentially other data repositories, such as data repository 420 forstoring other data, may also reside in the memory 401, and can executeon one or more CPUs 403. For example, other code or programs 430 caninclude an identity/security module which can provide a uniqueidentifier for the computing device 400 or otherwise facilitatevalidation of an identity of the computing device 400 and/or its user.Of note, one or more of the components in FIG. 4 may or may not bepresent in any specific implementation. For example, some embodimentsmay not provide other computer readable media 405 or a display 402.

In some embodiments, the computing device 400 and communicationfacilitation manager 422 include API(s) that provides programmaticaccess to add, remove, or change one or more functions of the computingdevice 400. In some embodiments, components/modules of the computingdevice 400 and communication facilitation manager 422 are implementedusing standard programming techniques. For example, the communicationfacilitation manager 222 may be implemented as an executable running onthe CPU 403, along with one or more static or dynamic libraries. Inother embodiments, the computing device 400 and communicationfacilitation manager 422 may be implemented as instructions processed bya virtual machine that executes as one of the other programs 430. Ingeneral, a range of programming languages known in the art may beemployed for implementing such example embodiments, includingrepresentative implementations of various programming languageparadigms, including but not limited to, object-oriented (e.g., Java,C++, C#, Visual Basic.NET, Smalltalk, and the like), functional (e.g.,ML, Lisp, Scheme, and the like), procedural (e.g., C, Pascal, Ada,Modula, and the like), scripting (e.g., Perl, Ruby, Python, JavaScript,VBScript, and the like), or declarative (e.g., SQL, Prolog, and thelike).

In a software or firmware implementation, instructions stored in amemory configure, when executed, one or more processors of the computingdevice 400 to perform the functions of the communication facilitationmanager 422. In some embodiments, instructions cause the CPU 403 or someother processor, such as an I/O controller/processor, to perform atleast some functions described herein.

The embodiments described above may also use well-known or othersynchronous or asynchronous client-server computing techniques. However,the various components may be implemented using more monolithicprogramming techniques as well, for example, as an executable running ona single CPU computer system, or alternatively decomposed using avariety of structuring techniques known in the art, including but notlimited to, multiprogramming, multithreading, client-server, orpeer-to-peer, running on one or more computer systems each having one ormore CPUs or other processors. Some embodiments may execute concurrentlyand asynchronously, and communicate using message passing techniques.Equivalent synchronous embodiments are also supported by a communicationfacilitation manager 422 implementation. Also, other functions could beimplemented and/or performed by each component/module, and in differentorders, and by different components/modules, yet still achieve thefunctions of the computing device 400 and communication facilitationmanager 422.

In addition, programming interfaces to the data stored as part of thecomputing device 400 and communication facilitation manager 422, can beavailable by standard mechanisms such as through C, C++, C#, and JavaAPIs; libraries for accessing files, databases, or other datarepositories; scripting languages such as XML; or Web servers, FTPservers, NFS file servers, or other types of servers providing access tostored data. The communication facilitation data storage 416 and datarepository 420 may be implemented as one or more database systems, filesystems, or any other technique for storing such information, or anycombination of the above, including implementations using distributedcomputing techniques.

Different configurations and locations of programs and data arecontemplated for use with techniques described herein. A variety ofdistributed computing techniques are appropriate for implementing thecomponents of the illustrated embodiments in a distributed mannerincluding but not limited to TCP/IP sockets, RPC, RMI, HTTP, and WebServices (XML-RPC, JAX-RPC, SOAP, and the like). Other variations arepossible. Other functionality could also be provided by eachcomponent/module, or existing functionality could be distributed amongstthe components/modules in different ways, yet still achieve thefunctions of the communication facilitation manager 422.

Furthermore, in some embodiments, some or all of the components of thecomputing device 400 and communication facilitation manager 422 may beimplemented or provided in other manners, such as at least partially infirmware and/or hardware, including, but not limited to one or moreapplication-specific integrated circuits (“ASICs”), standard integratedcircuits, controllers (e.g., by executing appropriate instructions, andincluding microcontrollers and/or embedded controllers),field-programmable gate arrays (“FPGAs”), complex programmable logicdevices (“CPLDs”), and the like. Some or all of the system componentsand/or data structures may also be stored as contents (e.g., asexecutable or other machine-readable software instructions or structureddata) on a computer-readable medium (e.g., as a hard disk; a memory; acomputer network, cellular wireless network or other data transmissionmedium; or a portable media article to be read by an appropriate driveor via an appropriate connection, such as a DVD or flash memory device)so as to enable or configure the computer-readable medium and/or one ormore associated computing systems or devices to execute or otherwiseuse, or provide the contents to perform, at least some of the describedtechniques.

The various embodiments described above can be combined to providefurther embodiments. All of the U.S. patents, U.S. patent applicationpublications, U.S. patent applications, foreign patents, foreign patentapplications and non-patent publications referred to in thisspecification and/or listed in the Application Data Sheet areincorporated herein by reference, in their entirety. In cases where thepresent patent application conflicts with an application or otherdocument incorporated herein by reference, the present applicationcontrols. Aspects of the embodiments can be modified, if necessary toemploy concepts of the various patents, applications and publications toprovide yet further embodiments.

These and other changes can be made to the embodiments in light of theabove-detailed description. In general, in the following claims, theterms used should not be construed to limit the claims to the specificembodiments disclosed in the specification and the claims, but should beconstrued to include all possible embodiments along with the full scopeof equivalents to which such claims are entitled. Accordingly, theclaims are not limited by the disclosure.

1. A method for facilitating communicative connection for a user device,comprising: receiving, from a user device, a request for communicativeconnection; identifying a set of candidate communications serviceproviders to match the request; providing information regarding the setof candidate communications service providers to the user device;receiving, from the user device, an indication of a communicationsservice provider selected from the set of candidate communicationsservice providers; and causing establishment of communicative connectionfor the user device via a communications service provided by theselected communications service provider.
 2. The method of claim 1,wherein the request for communicative connection indicates acommunication purpose.
 3. The method of claim 2, wherein thecommunication purpose includes at least one of gaming, audio or videostreaming, web browsing, texting, audio or video chatting, or audio orvideo conferencing.
 4. The method of claim 1, wherein the request forcommunicative connection indicates a destination utility serviceprovider.
 5. The method of claim 4, wherein causing establishment ofcommunicative connection comprises causing establishment ofcommunicative connection between the user device and the destinationutility service provider via the communications service provided by theselected communications service provider.
 6. The method of claim 1,wherein identifying a set of candidate communications service providerscomprises converting the request into a set of communication criteria.7. The method of claim 6, wherein the set of communication criteriaincludes at least one of latency requirement, bandwidth requirement,consistency requirement, duration requirement, channel requirement,interference requirement, or privacy requirement.
 8. The method of claim6, wherein identifying the set of candidate communications serviceproviders to match the request further comprises identifying one or morecommunications services provided by at least one communications serviceprovider that satisfy the set of communication performance criteria. 9.The method of claim 1, further comprising obtaining communicationperformance data from one or more communications service providers as abasis for identifying the set of candidate communications serviceproviders.
 10. The method of claim 9, wherein obtaining communicationperformance data is performed periodically or as triggered by dataupdating events.
 11. One or more non-transitory computer-readable mediacollectively storing contents that, when executed by one or moreprocessors, cause the one or more processors to perform actionscomprising: receiving, from a user device, a request for communicativeconnection; identifying a set of candidate communications serviceproviders to match the request; selecting a communications serviceprovider from the set of candidate communications service providersbased, at least in part, on one or more selection criteria; and causingestablishment of communicative connection for the user device viacommunications service provided by the selected communications serviceprovider.
 12. The one or more non-transitory computer-readable media ofclaim 11, wherein the one or more selection criteria includes at leastone of monetary cost requirement, communication performance requirement,or user preference.
 13. The one or more non-transitory computer-readablemedia of claim 11, wherein the actions further comprise obtainingcommunication performance data from one or more communications serviceproviders as a basis for identifying the set of candidate communicationsservice providers.
 14. The one or more non-transitory computer-readablemedia of claim 13, wherein obtaining communication performance data isperformed periodically or as triggered by data updating events.
 15. Theone or more non-transitory computer-readable media of claim 13, whereinthe actions further comprise obtaining pricing data from one or morecommunications service providers for different communications servicesprovided by the one or more communications service providers.
 16. Acommunication device comprising: one or more processors; and memorystoring contents that, when executed by the one or more processors,cause the communication device to: determine a need for communicativeconnection; send a request for the communication connection based, atleast in part, on the need; responsive to the request, receiveinformation indicating at least one communications service provider forestablishing the communication connection; and establish thecommunication connection via a communications service provided by the atleast one communications service provider.
 17. The communication deviceof claim 16, wherein the need for communicative connection is based, atleast in part, on invocation of an application on the communicationdevice.
 18. The communication device of claim 17, wherein thecommunication connection is associated with the application.
 19. Thecommunication device of claim 16, wherein contents further cause thecommunication device to convert the need for communication connectioninto a set of communication criteria.
 20. The communication device ofclaim 19, wherein the set of communication criteria includes at leastone of latency requirement, bandwidth requirement, consistencyrequirement, duration requirement, channel requirement, interferencerequirement, or privacy requirement.